CN212185187U - Clothes - Google Patents

Abstract

The utility model provides a clothes that can cool off the clothes even the wearer removes and changes the posture is whole to the clothes of taking air feeder that obtains the profile of slim. The garment comprises a front fabric 11, a back fabric 12 arranged on the skin side closer to the wearer than the front fabric 11, a first fixing portion 21 for fixing the edge portion 11a of the front fabric 11 and the back fabric 12 to each other, a blower 15 attached to the front fabric 11 and sucking the outside air between the front fabric 11 and the back fabric 12, and a plurality of air outlets formed in the back fabric 12 and discharging the air between the front fabric 11 and the back fabric 12 to the wearer side, wherein a plurality of second fixing portions 22 for fixing the front fabric 11 and the back fabric 12 to each other are provided at positions spaced from the first fixing portion 21, and the plurality of second fixing portions 22 are arranged at positions spaced from each other in the body width direction x on one side x1 and the other side x2 in the body length direction y.

Description

Clothes

Technical Field

The utility model relates to a clothes with a blower which can circulate air between the surface fabric and lining material to radiate the heat of body.

Background

As a countermeasure against heatstroke and the like, clothing with a blower worn at the time of field work, at the time of exercise, at the time of watching a sports game, and the like have been developed. For example, patent document 1 discloses a garment provided with a spacer unit for maintaining a breathable state of a breathable duct at a position corresponding to the breathable duct between a front fabric and a back fabric.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2015-212447

SUMMERY OF THE UTILITY MODEL

However, the conventional clothes with a blower have a problem that the air flow is deteriorated due to the movement or posture of the wearer such as bending and twisting the body, and the clothes cannot be cooled locally or the whole clothes is swollen and looks heavy (first problem). Further, the conventional clothes with a blower have a problem that it is difficult to cool the head and neck of the wearer, in addition to the problem that the clothes cannot be cooled locally and the clothes as a whole is swollen (second problem). Further, from the viewpoint of effectively cooling the body of the wearer, the conventional clothes with a blower still have room for improvement (third problem).

Accordingly, an object of a first aspect of the present invention is to provide clothes with a blower that can cool the entire clothes and obtain a slim outline even when a wearer moves and changes posture. In addition, a second aspect of the present invention is to provide clothing with a blower that cools not only the body of the wearer but also the head and neck, and also obtains a slim outline. Further, a third aspect of the present invention is to provide clothing that can effectively cool the body of a wearer.

In one embodiment of the garment according to the first aspect of the present invention to solve the first problem, the garment is characterized by comprising a fabric, a lining arranged closer to the skin of the wearer than the fabric, a first fixing portion at which an edge portion of the fabric and the lining are fixed to each other, a blower attached to the fabric and sucking outside air between the fabric and the lining, and a plurality of air outlets formed in the lining and discharging air between the fabric and the lining to the wearer, wherein a plurality of second fixing portions at which the fabric and the lining are fixed to each other are provided at positions spaced from the first fixing portion, and the plurality of second fixing portions are arranged at positions spaced from each other in the body width direction and at positions spaced from each other in the body length direction. In the clothes with the blower, since it is necessary to efficiently flow air, it is originally desired that the front fabric and the back fabric are not fixed at positions other than the first fixing portion. However, the wearer's posture is not always upright and immobile, but may bend and twist the body. According to the clothes of the first aspect of the present invention, since the second fixing portion is provided in the above-described arrangement, the air flow between the fabric and the lining can be appropriately branched, and the air from the blower can be discharged from the exhaust port through a plurality of paths. As a result, the wearer can keep the air flow from being blocked even if the wearer changes posture (bends or twists the body, etc.), and the entire garment can be cooled. In addition, since the second fixing portion is provided in plural, the swelling of the clothes can be suppressed, and a slim profile can be obtained.

In the garment according to the first aspect of the present invention, it is preferable that at least 3 second fixing parts are disposed on one side and the other side in the body width direction, respectively, and a distance between adjacent second fixing parts in the body length direction decreases closer to a downstream side in the air flow direction, on each of the one side and the other side in the body width direction. This makes it easy to control the flow direction of the air on the downstream side, and the entire clothes can be cooled well.

In the garment according to the first aspect of the present invention, the second fixing portion is preferably formed in a band-like or linear shape and arranged to extend in the longitudinal direction. By making the second fixing portion in such a shape, the control of the air flow direction and the adjustment of the clothes contour are easier. Further, by extending the second fixing portion in such a direction, the air can be easily made to flow in the body length direction, and therefore the flow velocity of the air is increased, and a high cooling effect can be obtained.

In the garment according to the first aspect of the present invention, preferably, the second fixing portion includes a lining material having one main surface and another main surface opposite to the one main surface, the lining material being disposed between the lining material and the lining material, one end of the one main surface of the lining material being attached to the inner side of the lining material, and the other end of the one main surface of the lining material being attached to the outer side of the lining material. By disposing the lining material in this manner, the air flow resistance in the second fixing portion can be adjusted, and thus the air flow direction can be easily controlled.

In the garment according to the first aspect of the present invention, the other main surface of the lining material is preferably disposed on the downstream side in the air flow direction. By disposing the lining in this manner, air resistance from the blower can be reduced.

In the clothing according to the first aspect of the present invention, it is preferable that the clothing is a jacket having a front body and a rear body, the blower is attached to the rear body, and the plurality of second fixing portions are disposed on one side and the other side of the front body in the body width direction and on one side and the other side of the rear body in the body width direction, respectively. The air blower is arranged at a position out of the way when the clothes are worn, and the second fixing part controls the flowing direction of air in the front body and the back body, so that the whole clothes can be cooled efficiently.

The clothing according to the first aspect of the present invention is preferably a jacket having a surface fabric and a lining disposed closer to the skin of the wearer than the surface fabric, and having a hood attached thereto for covering the head and neck of the wearer, wherein the second fixing portion is provided on one side and the other side of the hood in the width direction, and the lining of the hood is provided with an exhaust port. This allows air to be blown around the face and head of the wearer, thereby efficiently cooling the entire body.

An embodiment of the garment according to a second aspect of the present invention to solve the second problem is characterized by comprising a fabric, a lining arranged closer to the skin of the wearer than the fabric, a first fixing portion for fixing the edge portion of the fabric and the lining to each other, a second fixing portion for fixing the fabric and the lining to each other at a position spaced apart from the first fixing portion, a blower attached to the fabric and sucking outside air into a first space between the fabric and the lining, a first exhaust port formed in the lining and exhausting air in the first space to the wearer, a standing collar portion, and a second exhaust port formed in the standing collar portion and exhausting air in a second space formed inside the standing collar portion, wherein the first space and the second space communicate with each other. According to the clothes of the second aspect of the present invention, by providing the second fixing portion, the air flow in the first space can be appropriately branched, and the slim outline can be obtained. In addition, the air sucked into the first space from the blower is discharged from the first exhaust port, so that at least the wearer's body can be cooled. Further, by communicating the first space and the second space with each other, air moves from the first space to the second space, and the air is discharged from the second air outlet formed in the neck portion, whereby the head and neck of the wearer can be cooled.

In the garment according to the second aspect of the present invention, it is preferable that the neck standing portion has an adjustment portion that increases or decreases the amount of air flowing from the first space to the second space. Thereby, the amount of air discharged from the second air outlet can be adjusted according to the wearer's preference.

In the clothing according to the second aspect of the present invention, it is preferable that when the standing collar portion is divided into the front standing collar portion and the rear standing collar portion in the front-rear direction of the wearer, the upper end of the rear standing collar portion in the longitudinal direction is located above the upper end of the front standing collar portion in the longitudinal direction. By forming the rear standing collar portion higher than the front standing collar portion in this manner, the air from the second air outlet can be easily discharged toward the back of the head. Further, when the wearer wears the cap, air is easily sent into the gap between the wearer's head and the cap.

In the clothes according to the second aspect of the present invention, the second air outlet may be formed in the standing collar portion on a skin side of the standing collar portion below the upper end in the body length direction. By forming the second exhaust port in this manner, the second exhaust port is easily positioned at the upper end in the body length direction when the collar portion bulges. Therefore, the air from the second air outlet is easily discharged upward in the longitudinal direction, and the head and neck of the wearer are easily cooled.

An embodiment of the garment according to a third aspect of the present invention that solves the third problem is characterized in that the garment is provided with a jacket having a face fabric, a lining disposed closer to the skin of the wearer than the face fabric, a first fixing portion for fixing the edge portion of the face fabric and the lining to each other, and a blower attached to the face fabric and sucking outside air between the face fabric and the lining, wherein a band-shaped fabric is provided on the jacket, the band-shaped fabric having a longitudinal direction and a width direction, the length direction being disposed along at least a part of the armholes, one side in the width direction being connected to the face fabric, the other side in the width direction being connected to the lining, and the band-shaped fabric being provided with a plurality of third exhaust ports for discharging air between the face fabric and the lining to the wearer. According to the clothes of the third aspect of the present invention, since the plurality of third air outlets are provided in the band-shaped fabric disposed along the armholes of the top, air can be discharged toward the armpits of the wearer who is likely to sweat, or air can be made to flow through the sleeves where heat is likely to gather, and the body of the wearer can be cooled efficiently.

In the clothing according to the third aspect of the present invention, it is preferable that the length of the portion of the band-shaped fabric connected to the top fabric is longer than the length of the portion of the band-shaped fabric connected to the back fabric. Accordingly, when the armhole is divided into the upper side region and the lower side region in the body length direction, the band-shaped fabric provided at the lower end portion of the lower side region is easily arranged in the width direction so as to fall down along the body width direction of the wearer, and air is easily discharged toward the armpit side of the wearer. Further, the belt-like fabric provided at the upper end of the upper region is easily arranged in the width direction so as to stand along the body length direction of the wearer, and air is easily discharged toward the cuff side.

In the clothing according to the third aspect of the present invention, preferably, when the armhole is bisected into the upper region and the lower region in the body length direction, the band-shaped fabric is disposed only in the lower region, and air is discharged toward the armpit of the wearer from the third air outlet disposed in the lower region. This makes it possible to discharge air intensively from the armpits of the wearer who is likely to sweat, thereby efficiently cooling the body of the wearer.

In the clothes according to the third aspect of the present invention, preferably, when the armhole is divided into the upper side region and the lower side region in the body length direction, the band-shaped fabric is disposed only in the upper side region, and the third air outlet disposed in the upper side region discharges air toward the cuff side. This allows air to flow through the sleeves, where heat is likely to be collected, and thus allows the wearer's body to be cooled efficiently.

In the clothing according to the third aspect of the present invention, it is preferable that the band-shaped fabric is disposed in a ring shape around the entire circumference of the armhole, and when the armhole is divided into the upper side region and the lower side region in the body length direction, air is discharged toward the cuff side from the third air outlet disposed in the upper side region, and air is discharged toward the armpit side of the wearer from the third air outlet disposed in the lower side region. This makes it possible to intensively discharge air under the armpits of the wearer who is likely to sweat, and to flow the air through the sleeves where heat is likely to be accumulated, thereby efficiently cooling the body of the wearer.

In the clothing according to the third aspect of the present invention, it is preferable that the length portion a of the strip-shaped fabric, which includes the one-fourth of the total length of the shoulder top portion of the strip-shaped fabric in the center, is bent by 80 degrees or more and 140 degrees or less in a plan view. By forming the band-shaped cloth in this manner, the portion a in the band-shaped cloth is easily arranged to stand along the body length direction of the wearer in the width direction, and air is easily discharged toward the cuff side.

In the clothing according to the third aspect of the present invention, it is preferable that the length portion B of the tape-shaped fabric, which is one quarter of the total length of the opposite sides including the shoulder-top portion of the tape-shaped fabric in the center, is bent by 10 degrees or more and 80 degrees or less in a plan view. By forming the band-shaped fabric in this manner, the width direction of the portion B in the band-shaped fabric is easily arranged so as to fall down along the body width direction of the wearer, and therefore, air is easily discharged to the underarm side of the wearer.

In the clothing according to the third aspect of the present invention, it is preferable that the unit vector a indicating the exhaust direction from the third exhaust port arranged in the portion a has a component outward in the width direction larger than the unit vector B indicating the exhaust direction from the third exhaust port arranged in the portion B. By arranging the third air outlet in this way, air can be discharged intensively under the armpits of the wearer who is likely to sweat, and air can be made to flow in the sleeves where heat is likely to be collected, whereby the body of the wearer can be cooled efficiently.

The clothes according to the first aspect of the present invention can appropriately branch the air flow between the fabric and the lining by providing the second fixing portion with the above arrangement, and the air from the blower can be discharged from the air outlet through a plurality of paths. As a result, the wearer can keep the air flow from being blocked even if the wearer changes posture (bends or twists the body, etc.), and the entire garment can be cooled. In addition, since the second fixing portion is provided in plural, the swelling of the clothes can be suppressed, and a slim profile can be obtained.

According to the clothes of the second aspect of the present invention, by providing the second fixing portion, the air flow in the first space can be appropriately branched, and the slim outline can be obtained. In addition, the air sucked into the first space from the blower is discharged from the first exhaust port, so that at least the wearer's body can be cooled. Further, by communicating the first space and the second space with each other, air moves from the first space to the second space, and the air is discharged from the second air outlet formed in the neck portion, whereby the head and neck of the wearer can be cooled.

The clothes according to the third aspect of the present invention is provided with a plurality of third air outlets in the band-shaped fabric disposed along the armhole of the upper garment, and can discharge air toward the armpits of the wearer who is likely to sweat, or allow air to flow in the sleeves where heat is likely to gather, thereby efficiently cooling the body of the wearer.

Drawings

Fig. 1 is a front view of a front body of a garment according to a first aspect of the present invention as viewed from the outside.

Fig. 2 shows a front view of the front body shown in fig. 1 as viewed from the back side.

Fig. 3 shows a front view of the back body of the garment shown in fig. 1 as viewed from the outside.

Fig. 4 shows a front view of the back body of the garment shown in fig. 1 as viewed from the back side.

Fig. 5 shows a sectional view taken along line V-V of fig. 3, showing a fixed state of the second fixing portion.

Fig. 6 is a cross-sectional view showing a modification of the second fixing section shown in fig. 5.

Fig. 7 is a perspective view of a garment according to another embodiment of the first aspect of the present invention.

Fig. 8 shows a rear view of the garment shown in fig. 7.

Fig. 9 is a side view of the hood provided in the clothing shown in fig. 7, as viewed from the outside.

Fig. 10 is a side view of a hood provided in the clothing shown in fig. 7, as viewed from the back side.

Fig. 11 is a front view of the garment according to the second aspect of the present invention, showing a state in which the fastener is engaged.

Fig. 12 shows a rear view of the garment shown in fig. 11.

Fig. 13 is a view showing the garment shown in fig. 11, as viewed from the outside, after the fastener is released from the garment.

Fig. 14 is a view showing the garment shown in fig. 11, after the fastener is released from the garment and the garment is viewed from the back.

Fig. 15 shows an XV-XV sectional view of fig. 11, showing a state of communication of the first space and the second space.

Fig. 16 is a front view of a garment according to a third aspect of the present invention.

Fig. 17 shows a rear view of the garment shown in fig. 16.

Fig. 18 is an enlarged perspective view of an embodiment of a garment according to a third aspect of the present invention.

Fig. 19 is a plan view showing the band-shaped cloth shown in fig. 18.

Fig. 20 is an enlarged perspective view of another embodiment of the garment according to the third aspect of the present invention.

Fig. 21 is a plan view of the tape-like cloth shown in fig. 20.

Fig. 22 is an enlarged perspective view of another embodiment of the garment according to the third aspect of the present invention.

Fig. 23 is a plan view of the tape-like cloth shown in fig. 22.

Fig. 24 is a plan view of a portion a of the tape-like clothing shown in fig. 22.

Fig. 25 is a plan view of a portion B of the band-shaped cloth shown in fig. 22.

Description of the reference numerals

1: a garment; 2: a coat; 3: a front body; 3L: a left front body piece; 3R: a right front body piece; 4: a back body; 5: a hood; 11: fabric; 12: lining; 13: a lining material; 13A: one main surface of the lining material; 13B: the other main surface of the lining material; 14: an adhesive; 15: a blower; 16: an exhaust port; 21: a first fixed part; 22: a second fixed part; 101: a garment; 102: a coat; 103: a collar standing part; 103A: a front side collar standing part; 103B: a rear side collar standing part; 104: a fastener; 105: an opening part; 106: fabric; 107: lining; 108: cloth for standing up collar; 110: a blower; 111: a first exhaust port; 112: a second exhaust port; 115: a first space; 116: a second space; 121: a first fixed part; 122: a second fixed part; 201: a garment; 202: a coat; 202A: armholes; 202 Aa: the upper region of the armhole; 202 Ab: the lower region of the armhole; 203: a front body; 203L: a left front body piece; 203R: a right front body piece; 204: a back body; 206: sleeves; 206A: a cuff; 207: standing a collar; 211: fabric; 212: lining; 213: strip-shaped cloth; 213 Aa: one end of the strip-shaped cloth in the length direction; 213 Ab: the other end of the strip-shaped cloth in the length direction; 213 Ba: one side of the strip-shaped cloth in the width direction; 213 Bb: the other side of the strip-shaped cloth in the width direction; 213C: the shoulder top of the strip-shaped cloth; 213D: the opposite sides of the shoulder top of the strip cloth; 213E: a center point in the width direction at a position of one end in the length direction of the strip-shaped cloth; 213F: a width-direction center point at the other end of the strip-shaped cloth in the length direction; 213G: a width-direction center point at a most curved position of the band-shaped cloth; 215: a blower; 216: a third exhaust port; 221: a first fixed part; 222: a second fixed part; a: a length portion including a quarter of the entire length of the shoulder top portion of the band cloth in the center; b: a length portion of a quarter of the total length on the opposite side of the shoulder top portion including the band cloth in the center; a: a unit vector indicating an exhaust direction from the exhaust port arranged in the portion a; b: a unit vector indicating an exhaust direction from the exhaust port arranged in the section B; l1: a straight line for quartering the whole length of the belt-shaped cloth; l2: a straight line connecting a center point in the width direction at a position of one end in the length direction of the strip-shaped cloth and a center point in the width direction at the most curved position; l3: a straight line connecting a center point in the width direction at the other end in the length direction of the strip-shaped cloth and a center point in the width direction at the most curved position; p: the length direction of the belt-shaped cloth; q: the width direction of the belt-shaped cloth; x: a body width direction; x 1: one side in the body width direction; x 2: the other side in the body width direction; y: the body length direction; y 1: upper side in the body length direction; y 2: a lower side in the body length direction; z: the lamination direction of the surface fabric and the lining fabric.

Detailed Description

The present invention is not limited to the examples shown in the drawings, and can be implemented by appropriately changing the examples within a range that can meet the gist of the invention described above, and all of them are included in the technical scope of the present invention.

The utility model discloses well clothes refer to the clothing that can wear on one's body, including the jacket of overcoat, jacket etc. the lower clothing of trousers, skirt etc. dress, the coat and the lower clothing of dress such as dress, jump suit are even as an organic whole jumpsuit. The sleeves of the jacket of the present invention may be sleeves having cuffs on the wrist side of the elbow, such as long sleeves or seven-quarter sleeves, sleeves having cuffs on the shoulder side of the elbow, such as half-sleeve or sleeveless jackets, or sleeves having cuffs at the elbow position, such as five-quarter sleeves. The clothes of the utility model are suitable for heatstroke prevention, sports and outdoor use. Preferably, the garment is released from the coupling of the left and right front bodies by fasteners such as zippers, velcro fasteners, snaps, and the like.

In the present invention, the inside of the garment refers to the side facing the skin of the wearer when wearing the garment, and the outside of the garment refers to the opposite side of the wearer when wearing the garment. In the present invention, the body width direction refers to the lateral direction of the wearer, and the body length direction refers to the body length direction of the wearer, i.e., the vertical direction.

(clothes according to the first aspect)

The configuration of the garment according to the first aspect of the present invention will be described with reference to fig. 1 to 4. Fig. 1 to 2 show front views of a front body 3 of a garment 1 according to a first aspect of the present invention as viewed from the outside and the inside, respectively, and fig. 3 to 4 show front views of a back body 4 of the garment 1 shown in fig. 1 as viewed from the outside and the inside, respectively. In fig. 1 and 2, the right front body 3R is disposed on one side x1 in the body width direction x, and the left front body 3L is disposed on the other side x 2. In fig. 1 to 4, the example in which the garment 1 is a sleeveless vest is described, but the form of the garment is not limited to this, and may be a garment with sleeves. The sleeve part can be made of a piece of fabric without lining. The first aspect of the present invention relates to a garment 1 having a fabric 11, a lining 12, a first fixing portion 21, a blower 15, a plurality of exhaust ports 16, and a plurality of second fixing portions 22.

The top fabric 11 is a garment material disposed on the outer side of the garment 1, and the back fabric 12 is a garment material disposed on the skin side of the wearer closer than the top fabric 11. The front fabric 11 and the back fabric 12 may be each formed of 1 piece of clothing, or may be formed by stacking a plurality of pieces of clothing. In order to further enhance the cooling effect by discharging air from the backing 12 to the wearer side outside the air outlet 16, the backing 12 may have higher air permeability than the fabric 11.

The material of the clothing constituting the top fabric 11 and the back fabric 12 is not particularly limited as long as it is generally used for the clothing 1, and for example, a fabric (woven fabric, knitted fabric, nonwoven fabric, etc.), a resin laminated fabric, a resin film, a material obtained by combining these, or the like can be used. Examples of fibers constituting the fabric include natural fibers such as cotton and silk, and synthetic fibers such as polyester, polyethylene, and nylon. The clothes may be joined by sewing, bonding with an adhesive, heat fusion, ultrasonic fusion, or the like.

The fabric may be made of a cloth having a lower air permeability than the lining (frazier air permeability: JIS L1096). Thus, air can be supplied from the lining as a whole to the body without lowering the efficiency of air intake caused by air being discharged from the lining to the outside. The lower the air permeability of the fabric, the better, and for example, the frazier air permeability may be set to zero (below the measurement limit).

In the first fixing portion 21, the edge portion 11a of the face fabric 11 and the back fabric 12 are fixed to each other. By fixing the edge portion 11a of the face fabric 11 to the back fabric 12 in this manner, a portion serving as a base of a flow path for the ventilation air can be formed between the face fabric 11 and the back fabric 12. By thus forming the first fastening part 21, a pocket can be provided on the garment 1. The edge portion 11a of the fabric 11 is within 5cm, preferably within 3cm, and more preferably within 1cm from the edge of the fabric 11.

In the first fixing portion 21, the edge portion 11a of the face fabric 11 and the edge portion of the back fabric 12 may be fixed to each other. As shown in fig. 1 to 4, in the first fixing portion 21, the peripheral portion of the front fabric 11 and the peripheral portion of the back fabric 12 can be fixed to each other. The number of the first fixing portions 21 is not particularly limited, and may be provided in plural.

The blower 15 is installed on the face fabric 11 and sucks external air between the face fabric 11 and the back fabric 12. The plurality of air vents 16 are formed in the back sheet 12, and discharge air between the front sheet 11 and the back sheet 12 toward the wearer. The exhaust port 16 is formed to penetrate from the front surface side to the back surface side of the backing material 12. By discharging the air sucked between the face fabric 11 and the lining 12 through the air outlet 16, the heat of vaporization at the time of evaporation of sweat, for example, can be utilized to dissipate the heat of the body.

The blower 15 may be disposed at a position out of the way when the garment 1 is worn. For example, in the case where the garment 1 is the jacket 2, the blower 15 is preferably formed on at least one of the front body 3 and the rear body 4, and more preferably on the rear body 4. Specifically, the blower 15 is preferably disposed below the shoulder carapace in the body length direction y, more preferably at a position corresponding to the waist of the wearer, and is preferably not formed on the sleeve.

The number of the air blowers 15 is not particularly limited, and the air blowers 15 are preferably attached to one side x1 and the other side x2 in the body width direction x, and more preferably attached to the left and right sides of the rear body 4, respectively, in order to efficiently cool the entire body. The blower 15 may be disposed at a distance in the body width direction x. In addition, in the clothing 1 according to the first aspect of the present invention, the one side x1 and the other side x2 in the body width direction x are referred to as the right side and the left side of the center line C in the body width direction x, respectively.

The air outlet 16 is provided in the back sheet 12 to discharge air between the front sheet 11 and the back sheet 12 to the wearer's side. Therefore, the air outlet 16 is preferably not formed in the fabric 1. By discharging the air sucked between the face fabric 11 and the back fabric 12 from the air blower 15 through the air outlet 16, at least the wearer's body can be cooled. The exhaust port 16 is formed to penetrate from the front surface side to the back surface side of the backing material 12. The exhaust port 16 is preferably formed at a place where sweat is likely to occur, for example, at a position corresponding to the head, the neck, the armpit, the chest, between the left and right shoulder bones, and the inner side of the knee. The plurality of exhaust ports 16 may be arranged symmetrically. The shape of the exhaust port is not particularly limited, and may be, for example, a circular shape, an oval shape, a polygonal shape, or a combination thereof. The plurality of exhaust ports may be identical in shape or different from each other. Fig. 2 and 4 show examples in which the exhaust port 16 is provided at a position corresponding to the underarm of the front body 3 and the rear body 4, a position corresponding to a space between the left and right scapulae of the rear body 4 (particularly, a position overlapping the center line C in the body width direction x in fig. 4), and a position corresponding to the chest of the front body 3.

The opening area of the exhaust port 16 is not particularly limited, but is preferably 10mm, for example²Above, more preferably 20mm²Above, more preferably 30mm²The thickness is preferably 300mm²Hereinafter, more preferably 280mm²Hereinafter, it is more preferably 250mm²The following. When the exhaust port 16 is circular, the diameter of the exhaust port 16 may be 5mm or more, preferably 7mm or more, and may be 20mm or less, preferably in the range of 15 mm.

The number of the exhaust ports 16 is not particularly limited, and in order to efficiently cool the entire body, the exhaust ports 16 are preferably formed on one side x1 and the other side x2 in the body width direction x, and more preferably formed on the left and right sides of the rear body panel 4. The plurality of exhaust ports 16 may be disposed at intervals in the body length direction y on one side x1 and the other side x2 in the body width direction x.

At least 2 exhaust ports 16 are disposed on one side x1 and the other side x2 in the body width direction x, respectively, and preferably, the opening area of the exhaust ports 16 is larger toward the downstream side in the air flow direction on each of the one side x1 and the other side x2 in the body width direction x. This makes it easier to positively discharge the air on the downstream side in the air flow direction, and therefore the flow velocity of the air increases, and the clothes 1 can be cooled quickly.

When the clothes 1 are divided into the upper side y1 and the lower side y2 in the body length direction y, it is preferable that a plurality of exhaust ports 16 are arranged on the upper side y1 and the blower 15 is arranged on the lower side y 2. This allows the air blower 15 to be disposed at a position out of the way when the garment 1 is worn, and allows air to flow upward from below in the body length direction y, thereby efficiently cooling the entire garment 1.

In the clothing 1 according to the first aspect of the present invention, the plurality of second fixing portions 22, to which the fabric 11 and the lining 12 are fixed to each other, are provided at positions spaced apart from the first fixing portions 21. The second fastening portions 22 may be disposed at intervals in the body length direction y on one side x1 and the other side x2 in the body width direction x. By providing the second fixing portion 22 in the above arrangement, the air flow between the face fabric 11 and the back fabric 12 can be appropriately branched, and thus the air from the blower 15 can be discharged from the exhaust port 16 through a plurality of paths. As a result, the wearer can keep the air flow from being blocked even if the wearer changes posture (bends or twists the body, etc.), and the entire garment 1 can be cooled. In addition, by providing a plurality of second fixing portions 22, the swelling of the garment 1 can be suppressed, and thus a slim profile can be obtained.

The distance separating the first fixing section 21 and the second fixing section 22 is preferably 1cm or more, more preferably 3cm or more, and still more preferably 5cm or more, from the viewpoint of improving air flow-through. In addition, the distance separating the first fastening part 21 and the second fastening part 22 is preferably 30cm or less, more preferably 25cm or less, and still more preferably 20cm or less, from the viewpoint of suppressing the swelling of the garment 1.

The second fixing section 22 is disposed on the inner side in the body width direction x than the first fixing section 21. This can improve the effect of suppressing the swelling at the position where the swelling is particularly likely to occur.

The number of the second fastening parts 22 is not particularly limited, and the second fastening parts 22 are preferably arranged at least 3, more preferably at least 4, on one side x1 and the other side x2 in the body width direction x. In addition, the second fastening parts 22 are preferably arranged in 15 or less, more preferably 12 or less, on one side x1 and the other side x2 of the second fastening parts 22 in the body width direction x. This makes it possible to further branch the air flow between the front fabric 11 and the back fabric 12.

Preferably, the garment 1 is a jacket 2 having a front body 3 and a back body 4, the blower 15 is attached to the back body 4, and the plurality of second fixing portions 22 are disposed on one side x1 and the other side x2 of the front body 3 in the body width direction x and on one side x1 and the other side x2 of the back body 4 in the body width direction x, respectively. The blower 15 is disposed at a position out of the way when the garment 1 is worn, and the second fixing portions 22 control the flow direction of air in the front body 3 and the rear body 4, so that the entire garment 1 can be cooled efficiently.

Preferably, the plurality of second fastening portions 22 are also spaced apart in the body width direction x on one side x1 and the other side x2 in the body width direction x. Thereby, the air flow can be branched more.

Preferably, at least 3 second fastening parts 22 are respectively arranged on one side x1 and the other side x2 in the body width direction x, and the distance between adjacent second fastening parts 22 in the body length direction y decreases toward the downstream side in the air flow direction on the one side x1 and the other side x2 in the body width direction x. This makes it possible to easily control the flow direction of the air on the downstream side, and to cool the entire garment 1 well. Here, the distance between the adjacent second fastening parts 22 in the longitudinal direction y is the shortest distance between the lower end of the second fastening part 22 located on the upper side and the upper end of the second fastening part 22 located on the lower side in the longitudinal direction y.

Preferably, the distance between one second fastening portion 22 and the adjacent other second fastening portion 22 in the body width direction x is greater than the distance between one second fastening portion 22 and the adjacent other second fastening portion 22 in the body length direction y. This allows air to flow in the body length direction y preferentially over the body width direction x. Here, the distance between one second fixing section 22 and the other adjacent second fixing section 22 in the body width direction x (i.e., the distance between the adjacent second fixing sections 22 in the body width direction x) is the shortest distance between the right end of the second fixing section 22 located on the left side and the left end of the second fixing section 22 located on the right side in the body width direction x.

The distance between the adjacent second fastening parts 22 in the body width direction x may be constant in the body length direction y. This makes it possible to easily control the air flow direction, and is suitable for mass production of the clothes 1.

The distance between adjacent second fixing portions 22 in the width direction x may be smaller on the downstream side in the air flow direction. This makes it easy to control the flow direction of the air on the downstream side, and the entire garment 1 can be cooled well.

The second fastening part 22 may be provided around the entire body length direction y of the garment 1, and may be provided at a part of the body length direction y.

As shown in fig. 1 to 4, the second fixing portion 22 is preferably configured to extend in the body length direction y. This makes it easy to cause the air to flow in the body length direction y, and therefore the flow velocity of the air increases, and the clothes 1 can be cooled quickly. Further, the second fixing portion 22 may extend in the body width direction.

The shape of the second fixing portion 22 is not particularly limited, and the second fixing portion 22 is preferably formed in a band shape or a linear shape. By forming the second fixing portion 22 in such a shape, the control of the air flow direction and the adjustment of the contour of the garment 1 are facilitated. Further, the second fixing portion 22 may be formed in a continuous or intermittent belt or line shape.

The second fixing portion 22 is preferably formed in a band-like or linear shape and arranged to extend in the body length direction y. By forming the second fixing portion 22 in such a shape, the control of the air flow direction and the adjustment of the clothes contour can be performed more easily. Further, by extending the second fixing portion 22 in such a direction, the air can be easily made to flow in the body length direction y, and therefore the flow velocity of the air is increased, and a high cooling effect can be obtained.

The lengths and widths of the second fixing portions 22 may be the same or different from each other. When the first fixing portions 21 and the second fixing portions 22 are respectively formed in a band-like or linear shape, the total length of all the second fixing portions 22 is preferably shorter than the total length of all the first fixing portions 21. This allows the air to be appropriately branched without reducing the air flow, so that the air is easily distributed over the entire garment 1, and the entire garment 1 can be cooled.

The widths of the second fixing portions 22 may be the same or different. The width of the second fixing portion 22 may be, for example, 0.5mm or more, 1mm or more, 3mm or more, or 20mm or less, 15mm or less, or 10mm or less. By setting the width of the second fixing portion 22 within such a range, an appropriate air flow can be ensured and the bulging of the garment 1 can be suppressed.

Preferably, the second fixing portion 22 is formed in a left-right symmetrical shape. This allows the garment 1 to obtain a cooling effect that is uniform in the right and left directions, and also suppresses irregular swelling of the garment 1.

Preferably, the air blowers 15 are respectively mounted on one side x1 and the other side x2 in the body width direction x, and the second fixing portion 22 is disposed more inward than the inner ends of the 2 air blowers 15 in the body width direction x. This allows air from the blower 15 to be smoothly guided to the second fixing portion 22, and prevents the inner side in the body width direction x from bulging, thereby obtaining a slim profile. For the same reason, when the one side x1 and the other side x2 in the body width direction x are further divided into the inner side and the outer side in the body width direction x, the second fixing portion 22 may be disposed on the inner side and the blower 15 may be disposed on the outer side.

In the body length direction y, the center of the blower 15 is preferably disposed above the upper end of the second fixing portion 22 disposed at the lowermost side. Accordingly, the air from the blower 15 easily passes between the 2 second fixing portions 22 arranged in parallel at the lowermost side from the upper side to the lower side, and thus the air easily flows in the respective upper and lower directions and easily spreads over the entire garment 1.

Preferably, the center of the blower 15 is disposed above the lower end of the second fixing portion 22 disposed at the lowest side in the body length direction y. Accordingly, the air from the blower 15 easily passes between the 2 second fixing portions 22 arranged in parallel at the lowermost side, and thus the air easily flows in all directions and easily spreads over the entire garment 1.

Although not shown, the center of the blower 15 may be disposed below the lower end of the second fixing portion 22 disposed at the lowermost side in the body length direction y. Accordingly, the air from the blower 15 passes between the 2 second fixing portions 22 arranged in parallel in the body width direction x, and thus easily flows in the body length direction y.

Preferably, a plurality of exhaust ports 16 are disposed between one second fixing portion 22 and the other second fixing portion 22, which are aligned in the body width direction x, on one side x1 and the other side x2 in the body width direction x, respectively. This allows air introduced between the second fixing portions 22 arranged in the body width direction x to be efficiently discharged from the air outlet 16, thereby improving the cooling effect of the garment 1. Further, the position of the exhaust port 16 is not particularly limited, and may be located in the back center portion or the rib portion as shown in fig. 4.

In the body length direction y, the upper end of the exhaust port 16 disposed uppermost is preferably disposed below the upper end of the second fixing portion 22 disposed uppermost. Further, it is preferable that the lower end of the exhaust port 16 disposed lowermost be disposed above the lower end of the second fixing portion 22 disposed lowermost in the body length direction y. It is thereby possible to control the flow direction of air in the second fixing portion 22 and efficiently discharge the air from the air outlet 16.

Fig. 5 shows a sectional view taken along the line V-V shown in fig. 3, showing the fixed state of the second fixing portion 22. In fig. 5, the direction in which the front fabric 11 and the back fabric 12 are laminated is indicated by z. The front material 11 and the back material 12 in the second fixed portion 22 may be fixed by sewing, coating with an adhesive, heat fusion such as heat sealing or thermoacoustic fusion, caulking, or a combination thereof. The first fixing portion 21 may be fixed in the same manner. Fig. 5 shows an example in which the front sheet 11 and the back sheet 12 are joined by the adhesive 14.

In order to suppress the swelling of the garment 1, the second fastening portion 22 may interconnect the back side surface of the top fabric 11 and the outer side surface of the back fabric 12.

Fig. 6 shows a modification of the cross-sectional view shown in fig. 5. As shown in fig. 6, in the second fixing portion 22, a lining material 13 having one main surface 13A and the other main surface 13B opposite to the one main surface 13A may be disposed between the front material 11 and the back material 12. In this case, one end of the one main surface 13A of the lining 13 is preferably attached to the back surface of the fabric 11, and the other end of the one main surface 13A of the lining 13 is preferably attached to the outer surface of the lining 12. By disposing the lining 13 in this manner, the air flow resistance of the second fixing portion 22 can be adjusted, and thus the air flow direction can be easily controlled.

As the material constituting the lining 13, the same material as that constituting the face fabric 11 and the back fabric 12 can be used. In order to reduce the air flow resistance in the second fixing portion 22, the lining 13 preferably has higher air permeability than the face fabric 11 and the back fabric 12. For example, the gusset 13 is preferably formed of a mesh. This facilitates the flow of air through the second fixing portion 22, thereby further improving the cooling effect of the entire garment 1.

In order to increase the air flow resistance in the second fixing portion 22, the lining 13 preferably has lower air permeability than the face fabric 11 and the back fabric 12.

As shown in fig. 6, the other main surface 13B of the lining 13 is preferably disposed on the downstream side in the air flow direction. By disposing the lining 13 in this manner, air resistance from the blower 15 can be reduced.

Although not shown, the one main surface 13A of the lining 13 may be disposed on the downstream side in the air flow direction. By disposing the lining 13 in this manner, the air resistance from the blower 15 can be increased.

The front fabric 11 and the lining material 13, and the lining material 12 and the lining material 13 may be fixed by sewing, coating with an adhesive, heat fusion such as heat sealing or thermoacoustic fusion, caulking, or a combination thereof. The method of fixing the top fabric 11 and the lining material 13 may be the same as or different from the method of fixing the lining material 12 and the lining material 13.

Next, a garment according to an embodiment different from the garment shown in fig. 1 to 6 will be described with reference to fig. 7 to 10. In the description of fig. 7 to 10, the description overlapping with the above description is omitted. Fig. 7 shows a perspective view of a garment 1 according to another embodiment of the first aspect of the present invention, and fig. 8 shows a rear view of the garment 1 shown in fig. 7. Fig. 9 and 10 show side views of the hood 5 shown in fig. 7, respectively, as viewed from the outside or the inside. Preferably, the clothing 1 is a jacket 2 having a front fabric 11 and a back fabric 12 disposed on the skin side of the wearer rather than the front fabric 11, and to which a hood 5 covering the head and neck of the wearer is attached, the second fixing portions 22 are disposed on one side x1 and the other side x2 of the hood 5 in the body width direction x, respectively, and the vent 16 is disposed in the back fabric 12 of the hood 5. Thus, air can be supplied to the head and neck of the wearer, and the body can be cooled efficiently. The fabric 11 may be made of a cloth having an air permeability (frazier air permeability: JIS L1096) lower than that of the lining 12. This makes it possible to supply air from the back material 12 to the body as a whole without lowering the efficiency of air intake due to the air being discharged from the front material 11 to the outside.

Preferably, the linings 12 of the left and right head sides of the hood 5 are respectively provided with a plurality of exhaust ports 16. This allows further air to be supplied to the periphery of the face and the head of the wearer, thereby efficiently cooling the entire body.

In the clothing 1 according to the first aspect of the present invention, the lateral portion of the hood 5 is a portion covering the lateral portion of the head of the wearer, for example, the cheek, the ear, the lateral skull, the sphenoid bone, and the temporal muscle. The portion covering the left lateral head of the wearer is the left lateral head, and the portion covering the right lateral head is the right lateral head. In fig. 9-10, a side view of the hood 5 is shown from the left lateral head portion.

As shown in fig. 8, the hood 5 is preferably provided with an exhaust port 16 (more preferably, a plurality of exhaust ports 16) also at the back of the head. This also allows air to be blown toward the neck of the wearer. Further, the back of the head of the hood 5 is a portion covering the back of the head and the back of the neck, for example, the back skull, the back half of the parietal bone, the occipital muscle, and the upper portion of the trapezius muscle.

(clothing according to the second aspect)

The structure of the garment according to the second aspect will be described with reference to fig. 11 to 15. Fig. 11 is a front view of a garment 101 according to a second aspect of the present invention, showing a state in which a fastener 104 is engaged. Fig. 12 shows a rear view of the garment 101 shown in fig. 11. Fig. 13 and 14 show the garment 101 shown in fig. 11, as viewed from the outside or the back side of the garment 101, respectively, after the fasteners 104 are disengaged. Fig. 15 shows an XV-XV sectional view of fig. 11, which is a schematic view showing a communication state of the first space 115 and the second space 116. In fig. 11 to 14, a garment 101 is a jacket 102, and has an opening 105 through which a wearer passes his wrist. In fig. 11 to 14, an example is described in which the garment 101 is a sleeveless vest, and the form of the garment 101 is not limited to this, and may be a garment with sleeves. The sleeve portion may be formed of a single panel of material 106 without a liner 107.

An embodiment of the garment 101 according to the second aspect of the present invention is characterized in that, the clothing comprises a front fabric 106, a back fabric 107 arranged closer to the skin of a wearer than the front fabric 106, a first fixing portion 121 for fixing the edge portion 106a of the front fabric 106 and the back fabric 107 to each other, a second fixing portion 122 for fixing the front fabric 106 and the back fabric 107 to each other at a position spaced from the first fixing portion 121, a blower 110 attached to the front fabric 106 and sucking external air into a first space 115 located between the front fabric 106 and the back fabric 107, a first air outlet 111 formed in the back fabric 107 and discharging air in the first space 115 to the wearer side, a standing collar 103, and a second air outlet 112 formed in the standing collar 103 and discharging air in a second space 116 formed in the standing collar 103, wherein the first space 115 and the second space 116 communicate with each other. By providing the second fixing portion 122, the air flow of the first space 115 can be branched appropriately, and the slim profile can be obtained. In addition, by discharging the air sucked into the first space 115 from the blower 110 through the first exhaust port 111, at least the wearer's body can be cooled. Further, by making the first space 115 and the second space 116 communicate with each other, air moves from the first space 115 to the second space 116, and the air is discharged from the second air outlet 112 formed in the neck portion 103, whereby the head and neck of the wearer can be cooled.

The descriptions of the front fabric 106 and the back fabric 107 can be referred to the descriptions of the front fabric 11 and the back fabric 12 of the garment 101 according to the first aspect, respectively.

The first fixing portion 121 is a portion for fixing the edge portion 106a of the front fabric 106 and the back fabric 107 to each other. The first fixing portion 121 can form a portion serving as a base of the first space 115 serving as a flow path of the ventilation air between the front fabric 106 and the back fabric 107. By forming the first fastening portion 121 in this way, a pocket can be provided on the garment 101. The edge portion 106a of the fabric 106 is within 5cm, preferably within 3cm, and more preferably within 1cm from the edge of the fabric 106. The first fastening section 121 can be configured as described with reference to the first fastening section 21 of the garment 1 according to the first aspect.

The second fixing portion 122 is a portion for fixing the front fabric 106 and the back fabric 107 to each other at a position spaced apart from the first fixing portion 121. By providing the second fixing portion 122, the air flow of the first space 115 can be branched appropriately, and the slim profile can be obtained.

The second fixing portion 122 may be provided in plurality. This can further suppress the bulging of the garment 101, and thus a slim profile can be easily obtained. The second fastening section 122 can be configured as described with reference to the second fastening section 22 of the garment 1 according to the first aspect.

The blower 110 sucks external air into a first space 115 between the fabric 106 and the lining 107. The blower 110 may be disposed at a position out of the way when the garment 101 is worn. For example, in the case where the garment 101 is the jacket 102, the blower 110 is preferably formed on at least one of the front body and the rear body, and more preferably on the rear body. Specifically, the blower 110 is preferably disposed below the shoulder carapace in the body length direction y, more preferably at a position corresponding to the waist of the wearer, and is preferably not formed on the sleeve.

In the clothing 101 according to the second aspect of the present invention, the side x1 and the other side x2 of the body width direction x refer to the right side and the left side, respectively, of the center line C of the body width direction x in a state where the fastener 104 provided in the clothing 101 is coupled.

The first air outlet 111 is formed in the back material 107, and discharges air in the first space 115 toward the wearer. Therefore, the first exhaust opening 111 is preferably not formed in the fabric 106. By discharging the air drawn into the first space 115 from the blower 110 through the first exhaust port 111, at least the wearer's body can be cooled. The first exhaust port 111 is formed to penetrate from the front surface side to the back surface side of the backing 107. The first exhaust port 111 is preferably formed at a place where sweat is likely to be generated, and is preferably formed at a position corresponding to the armpit, the chest, the left and right bones of the shoulder, or the inner side of the knee of the wearer. In fig. 14, the first exhaust port 111 is formed at a position corresponding to the armpits of the front body and the rear body, a position corresponding to a space between the left and right scapulae of the rear body (particularly, a position overlapping the center line C in the body width direction x in fig. 14), and a position corresponding to the chest of the front body. In addition, with respect to the configuration of the first exhaust port 111, reference may be made to the description of the exhaust port 16 of the clothing 1 according to the first aspect.

The standing collar portion 103 is a collar portion formed to extend and stand up in the body length direction y without being folded back, and is disposed around the neck of the wearer. A second space 116 is formed inside the collar portion 103.

The collar portion 103 may be formed higher from the front side to the rear side of the wearer, or may have a constant height in the front-rear direction of the wearer.

The collar portion 103 can be formed in the following manner using a band-shaped collar fabric 108. The band-shaped standing collar fabric 108 is folded back at a substantially center in the short side direction, and the opposite end edges on one short side and the opposite end edges on the other short side are joined to each other to form a bag shape. Alternatively, 2 pieces of the band-shaped standing collar fabric 108 are laminated, and the opposed end edges on one long side, the opposed end edges on one short side, and the opposed end edges on the other short side are joined to each other to form a bag shape. The space formed inside the bag-shaped standing fabric 108 corresponds to the second space 116. In the standing neck fabric 108 formed in a bag shape, one opening end edge extending in the longitudinal direction is joined to the front fabric 106 of the jacket 102, and the other opening end edge opposite to the one opening end edge is joined to the back fabric 107 of the jacket 102, whereby the first space 115 and the second space 116 can be communicated with each other as shown in fig. 15.

As the stand-up fabric 108, a cloth similar to the front fabric 106 or the back fabric 107 may be used, and may be constituted by one piece of cloth or a plurality of pieces of cloth.

The second air outlet 112 is formed in the collar 103 and discharges air in the second space 116 formed inside the collar 103. As shown in fig. 15, by communicating the first space 115 and the second space 116 with each other, air moves from the first space 115 to the second space 116, and the air is discharged from the second air outlet 112, so that the head and neck of the wearer can be cooled.

The standing collar portion 103 has a skin side surface of the wearer and an outer side surface opposite to the skin side surface. In this case, the second air outlet 112 is preferably formed on the skin-side surface of the stand portion 103. This facilitates the discharge of air from the second air outlet 112 toward the wearer.

The number of the second exhaust ports 112 is not particularly limited, and may be one or more. Preferably, a plurality of second exhaust ports 112 are disposed spaced apart from one another along the circumference of the neck. The plurality of second exhaust ports 112 may be arranged to be spaced apart from each other in the body length direction y. Preferably, the second exhaust ports 112 are respectively formed at one side x1 and the other side x2 in the body width direction x. By thus providing a plurality of second air outlets 112, the cooling effect of the head and neck of the wearer can be improved.

Preferably, the second exhaust port 112 is provided at a position corresponding to the head or neck of the wearer. The second exhaust port 112 may be provided at a position corresponding to a back of the head, a side head, or a neck. In fig. 11, 3 second exhaust ports 112 are provided at positions corresponding to the neck.

Preferably, the second air outlet 112 is an air outlet for discharging air toward the head of the wearer. Thereby, the head and neck of the wearer are easily cooled.

Preferably, the plurality of second exhaust ports 112 arranged at intervals in the front-rear direction of the wearer are arranged such that the second exhaust port 112 located on the rear side is located above the second exhaust port 112 located on the front side in the body length direction y. Further, the plurality of second exhaust ports 112 are preferably arranged so as to be located above the wearer in the longitudinal direction y toward the rear side in the front-rear direction. This makes it easy to discharge air from the second air outlet 112 disposed at a position corresponding to the front side of the wearer to the front side or the lateral side of the neck, and also makes it easy to discharge air from the second air outlet 112 disposed at a position corresponding to the rear side of the wearer to the head.

When the plurality of second exhaust ports 112 are arranged at intervals in the front-rear direction of the wearer, the distance from the center of the second exhaust port 112 located on the rear side to the upper end of the stand-up portion 103 in the body length direction y is preferably longer than the distance from the center of the second exhaust port 112 located on the front side to the upper end of the stand-up portion 103 in the body length direction y. The distance in the body length direction y from the center of the second exhaust port 112 to the upper end of the standing neck portion 103 is preferably longer toward the rear side in the front-rear direction of the wearer. Thus, by shortening the distance in the body length direction y between the second exhaust port 112 located on the front side and the upper end of the standing neck portion 103, the standing neck portion 103 does not get in the way even if the wearer bends the neck portion downward or sideways. Further, by increasing the distance in the body length direction y between the second air outlet 112 located on the rear side and the upper end of the standing neck portion 103, the air from the second air outlet 112 is easily discharged to the rear of the head. Further, when the wearer wears a hat or a helmet, air is easily sent into a gap between the wearer's head and the hat or the helmet.

More preferably, when the standing collar portion 103 is equally divided into the front standing collar portion 103A and the rear standing collar portion 103B in the front-rear direction of the wearer, the second exhaust ports 112 are respectively disposed in the front standing collar portion 103A and the rear standing collar portion 103B. This can improve the cooling effect of the head and neck of the wearer.

The number of the second exhaust ports 112 formed in the front standing collar portion 103A and the number of the second exhaust ports 112 formed in the rear standing collar portion 103B may be the same or different from each other.

The second exhaust port 112 may be disposed so as to overlap the center line C in the body width direction x in the rear standing collar portion 103B. This facilitates the discharge of air from the second air outlet 112 in the direction of the back of the head of the wearer.

The second air outlet 112 preferably vents air in the direction of the wearer's ears. By cooling the ear, it is easy for the wearer to feel cool as a result of the numerous capillaries passing in the ear.

Preferably, the second exhaust port 112 is provided at an upper end portion in the body length direction y of the collar portion 103. This makes it easy for the air from the second air outlet 112 to be discharged upward in the body length direction y, thereby making it easy to cool the head and neck of the wearer. The upper end of the standing collar portion 103 in the body length direction y is within 2cm, preferably within 1.5cm, and more preferably within 1cm from the upper end of the standing collar portion 103 in the body length direction y.

The second air outlet 112 may be formed on the skin-side surface of the standing collar portion 103 below the upper end of the standing collar portion 103 in the body length direction y. By forming the second exhaust port 112 in this manner, the second exhaust port 112 is easily positioned at the upper end in the body length direction y when the collar portion 103 is bulged. Therefore, the air from the second air outlet 112 is easily discharged upward in the body length direction y, and the head and neck of the wearer are easily cooled.

The second exhaust port 112 may be provided on the skin-side surface of the neck portion 103 at the lower end portion of the neck portion 103 in the body length direction y. This facilitates the discharge of air from the second air outlet 112 in the direction of the root of the neck of the wearer. The lower end of the standing collar portion 103 in the body length direction y is within 2cm, preferably within 1.5cm, and more preferably within 1cm from the lower end of the standing collar portion 103 in the body length direction y.

When the standing collar portion 103 is equally divided into the front standing collar portion 103A and the rear standing collar portion 103B in the front-rear direction of the wearer, the upper end of the rear standing collar portion 103B in the body length direction y is preferably located above the upper end of the front standing collar portion 103A in the body length direction y. By forming the rear side standing collar portion 103B higher than the front side standing collar portion 103A in this manner, the air from the second air outlet 112 can be more easily discharged toward the back of the head. In addition, when the wearer wears a hat or a helmet, air is easily introduced into a gap between the wearer's head and the hat or the helmet.

Preferably, the stand-up portion 103 has an adjustment portion that increases or decreases the amount of air flowing from the first space 115 to the second space 116. Thereby, the amount of air discharged from the second air outlet 112 can be adjusted according to the wearer's preference.

The adjustment portion may have a structure capable of widening or narrowing the entrance of the second space 116, and examples thereof include a connector such as a velcro fastener, a wire clip, and a snap fastener for engaging or releasing one side and the other side of the standing fabric 108 facing each other with the second space 116 interposed therebetween. The size of the entrance of the second space 116 can be adjusted by coupling or decoupling the coupling. Preferably, such connectors are configured to extend around the neck, or a plurality of connectors are spaced around the neck.

The adjustment portion may be a string disposed on the collar portion 103. For example, the string may be disposed such that a part thereof is inserted into the collar portion 103 and the other part thereof is exposed to the outside of the collar portion 103. Preferably, at least one end portion and the other end portion of the string are exposed outside the standing collar portion 103, and the middle portion of the string is inserted inside the standing collar portion 103. Preferably, the string is configured to extend around the neck. The size of the entrance of the second space 116 can be adjusted by adjusting the length of the string inserted into the collar portion 103 by tightening or loosening the string. The material of the string is not particularly limited, and may be fiber, metal, or plastic.

The first exhaust port 111 or the second exhaust port 112 may be arranged symmetrically or asymmetrically.

The opening area of the first exhaust port 111 or the second exhaust port 112 is not particularly limited, but is preferably 10mm, for example²Above, more preferably 20mm²Above, more preferably 30mm²The thickness is preferably 300mm²Hereinafter, more preferably 280mm²Hereinafter, it is more preferably 250mm²The following. When the first exhaust port 111 or the second exhaust port 112 is circular, the diameter thereof may be in the range of 5mm or more, preferably 7mm or more, preferably 20mm or less, and more preferably 15mm or less.

(clothes according to the third aspect)

A configuration example of a garment according to a third aspect of the present invention will be described with reference to fig. 16 to 17. Fig. 16 to 17 show a front view and a rear view of a garment 201 according to a third aspect of the present invention, respectively. In fig. 16, a right front body 203R is disposed on one side x1 in the body width direction x, and a left front body 203L is disposed on the other side x 2. The back piece 204 of the garment 201 is shown in fig. 17. In fig. 16 to 17, the jacket 202 (vest) having the coat 201 without sleeves and the standing collar 207 is used as an example for explanation, but the form of the coat is not limited to this, and the coat may be a coat with sleeves, may have no collar, and may have a collar or hood of another form. In the case of sleeves, the sleeve portion may be formed of a single sheet of fabric without a lining. The garment 201 is a jacket 202 having a front fabric 211, a back fabric 212, a first fixing portion 221, and a blower 215, the jacket 202 is provided with a band-shaped fabric 213, and the band-shaped fabric 213 is provided with a plurality of third exhaust ports 216. Further, as shown in fig. 16 to 17, in the first fixing portion 221, the edge portion 211a of the face fabric 211 and the edge portion of the back fabric 212 may be fixed to each other.

An embodiment of the garment 201 according to the third aspect of the present invention is characterized in that, a garment 201 comprising a top garment 202, the top garment 202 having a front fabric 211, a back fabric 212 arranged on the skin side of a wearer closer than the front fabric 211, a first fixing part 221 for fixing the edge part 211a of the front fabric 211 and the back fabric 212 to each other, and a blower 215 attached to the front fabric 211 for sucking outside air between the front fabric and the back fabric, the upper garment 202 is provided with a band-shaped cloth 213, the band-shaped cloth 213 has a longitudinal direction p and a width direction q, and the longitudinal direction p is arranged along at least a part of the armhole 202A, one side in the width direction q is connected to the front fabric 211, the other side in the width direction q is connected to the back fabric 212, and the band-shaped cloth 213 is provided with a plurality of third air outlets 216 for discharging air between the front fabric 211 and the back fabric 212 on the wearer's side. According to the clothing 201 according to the third aspect of the present invention, the plurality of third air outlets 216 are provided in the band-shaped fabric 213 disposed along the armholes 202A of the coat 202, so that air can be discharged toward the armpits of the wearer who is likely to sweat, or air can be made to flow in the sleeves where heat is likely to collect, and thus the body of the wearer can be cooled efficiently.

The descriptions of the front fabric 211, the back fabric 212, the blower 215, and the first fastening portion 221 may refer to the descriptions of the front fabric 11, the back fabric 12, the blower 15, and the first fastening portion 21 of the garment 1 according to the first aspect, respectively.

Fig. 18 is an enlarged perspective view of a left front body 203L in an embodiment of a garment 201 according to a third aspect of the present invention, and fig. 19 is a plan view of a belt-like fabric 213 shown in fig. 18. An example of a jacket 202 (vest) in which the garment 201 is sleeveless 206 is shown in fig. 18. The band-shaped fabric 213 is a fabric having a longitudinal direction p and a width direction q perpendicular to the longitudinal direction p, and is provided around the armhole 202A to dispose the third exhaust port 216. The band-shaped fabric 213 is disposed along at least a part of the armhole 202A in the longitudinal direction p. The belt-shaped fabric 213 is connected to the front fabric on one side 213Ba in the width direction q, and connected to the back fabric 212 on the other side 213Bb in the width direction q. The direction perpendicular to both the longitudinal direction p and the width direction q is the thickness direction of the belt-like cloth 213. In fig. 18, the band-shaped cloth 213 is provided in the armholes 202A of the left front body 203L, but it is preferable that the band-shaped cloth is provided in the armholes of the right front body. In addition, the shape and the opening area of the third air outlet 216 can be referred to the description of the air outlet 16 of the garment 1 according to the first aspect.

The belt-shaped cloth 213 may be formed by connecting a plurality of cloths in the longitudinal direction p or the width direction q. The band-shaped cloth 213 may be formed by laminating 1 or more cloths in the thickness direction.

The length of the belt-shaped fabric 213 in the width direction q (i.e., the width) may be set according to the shape and the opening area of the third exhaust port 216, as long as the length is shorter than the length in the longitudinal direction p. The width of the belt-like cloth 213 may be constant in the longitudinal direction p or may vary depending on the position in the longitudinal direction p. The belt-like cloth 213 may have a portion extending linearly in the longitudinal direction p, at least a portion in the longitudinal direction p may be curved, or the entire longitudinal direction p may be curved.

The belt cloth 213 is provided with a plurality of third exhaust ports 216. Preferably, the plurality of third exhaust ports 216 are spaced apart in the longitudinal direction p of the belt-shaped cloth 213. In other words, the plurality of third exhaust ports 216 are preferably arranged in parallel along the circumferential direction of the armhole 202A. The distance separating adjacent third exhaust ports 216 may be constant or may vary. For example, when at least 3 third exhaust ports 216 are disposed in the belt-shaped cloth 213 so as to be spaced apart in the longitudinal direction p, and they are defined as the 3 rd-1 exhaust port, the 3 rd-2 exhaust port, and the 3 rd-3 exhaust port, the distance between the 3 rd-1 exhaust port and the 3 rd-2 exhaust port may be the same as or different from the distance between the 3 rd-2 exhaust port and the 3 rd-3 exhaust port.

Preferably, the plurality of third exhaust ports 216 provided in one armhole 202A pass through the shoulder top portion 213 of the band cloth 213 and are arranged to be axisymmetric with respect to a straight line parallel to the body length direction y. Thereby, the body can be cooled in a balanced manner in the front-rear direction of the wearer.

Preferably, the width of the portion of the band cloth 213 where the third exhaust port 216 is provided is formed to be wider than the width of the portion where the third exhaust port 216 is not provided. This facilitates formation of the third exhaust port 216 in the belt-shaped fabric 213.

As a material constituting the cloth of the belt-like cloth 213, a description can be given of a material constituting the cloth of the front cloth and the back cloth. In order to further improve the cooling effect by discharging air to the wearer side outside the third air outlet 216, the band-shaped fabric 213 preferably has air permeability equivalent to that of the back fabric, and may be configured to have air permeability higher than that of the fabric, for example.

The band-shaped fabric 213 and the face fabric 211, or the band-shaped fabric 213 and the back fabric 212 may be joined by sewing, bonding with an adhesive, heat fusion, ultrasonic fusion, or the like.

Preferably, the length of the portion of the band-shaped cloth 213 connected to the front cloth 211 is longer than the length of the portion connected to the back cloth 212. Accordingly, when the armhole 202A is divided into the upper region 202Aa and the lower region 202Ab in the body length direction y, the belt-shaped cloth 213 provided at the lower end portion of the lower region 202Ab is easily arranged so that the width direction q thereof falls along the body width direction x of the wearer, and air is easily discharged toward the underarm side of the wearer. The belt-like cloth 213 provided at the upper end of the upper region 202Aa is easily arranged so as to stand along the body length direction y of the wearer in the width direction q, and easily discharges air toward the cuff 206A.

The length of the portion of the band-shaped fabric 213 connected to the front fabric 211 is preferably 1.01 times or more, more preferably 1.05 times or more, further preferably 1.07 times or more, and may be 2 times or less, 1.5 times or less, 1.3 times or less, or 1.25 times or less, the length of the portion connected to the back fabric 212.

As shown in fig. 18, when the armhole 202A is bisected into the upper region 202Aa and the lower region 202Ab in the longitudinal direction y, the band-shaped cloth 213 is preferably disposed only in the lower region 202Ab, and air is preferably discharged toward the armpit side of the wearer from the third exhaust port 216 disposed in the lower region 202 Ab. This makes it possible to discharge air intensively from the armpits of the wearer who is likely to sweat, thereby efficiently cooling the body of the wearer.

In order to facilitate the discharge of air from the third air outlet 216 to the armpit side of the wearer, the angle formed by the thickness direction of the band-shaped fabric 213 and the longitudinal direction y is preferably within 45 degrees, more preferably within 30 degrees, further preferably within 10 degrees, and particularly preferably the thickness direction of the band-shaped fabric 213 is parallel to the longitudinal direction y at the lower end portion of the armhole 202A in the longitudinal direction y.

When the band-shaped cloth 213 is disposed only in the lower region 202Ab of the armhole 202A or only in the upper region 202Aa as described later, at least one end portion in the longitudinal direction p of the band-shaped cloth 213 is preferably formed to be narrow toward the one end 213Aa thereof as shown in fig. 19, and more preferably, one end portion in the longitudinal direction p of the band-shaped cloth 213 is formed to be narrow toward the one end 213Aa thereof and the other end portion is formed to be narrow toward the other end 213Ab thereof. This allows smooth joining of the face fabric 211 and the back fabric 212 at the portion where the band-shaped fabric 213 is present and the portion where the band-shaped fabric 213 is absent in the circumferential direction of the armhole 202A.

Fig. 20 is an enlarged perspective view of a left front body 203L and sleeves 206 of another embodiment of a garment 201 according to a third aspect of the present invention, and fig. 21 is a plan view of a band-shaped fabric 213 shown in fig. 20. Fig. 20 shows an example in which the garment 201 is a jacket 202 having long sleeves. As shown in fig. 20, when the armhole 202A is bisected into the upper region 202Aa and the lower region 202Ab in the body length direction y, the band-shaped cloth 213 is preferably disposed only in the upper region 202Aa, and air is preferably discharged toward the cuff 206A from the third air outlet 216 disposed in the upper region 202 Aa. This allows air to flow through the sleeve 206, which is likely to collect heat, thereby efficiently cooling the body of the wearer.

In order to facilitate the discharge of air from the third air outlet 216 toward the wearer's cuff 206A, the angle formed by the thickness direction of the band-shaped fabric 213 and the body width direction x at the upper end portion in the body length direction y of the armhole 202A (the shoulder top portion 213C of the band-shaped fabric 213) is preferably within a range of 45 degrees, more preferably within a range of 30 degrees, still more preferably within a range of 10 degrees, and particularly preferably the thickness direction of the band-shaped fabric 213 is parallel to the body width direction x.

Fig. 22 is an enlarged perspective view of a part of the left front body 203L and the sleeves 206 in another embodiment of the garment 201 according to the third aspect of the present invention. Fig. 22 shows an example in which the garment 201 is a jacket 202 having long sleeves. As shown in fig. 22, preferably, the band cloth 213 is disposed in a ring shape surrounding the entire circumference of the armhole 202A, and when the armhole 202A is divided into the upper side region 202Aa and the lower side region 202Ab in the body length direction y, air is discharged from the third air outlet 216 disposed in the upper side region 202Aa toward the cuff 206A side, and air is discharged from the third air outlet 216 disposed in the lower side region 202Ab toward the armpit side of the wearer. This allows air to be discharged intensively under the armpits of the wearer who is likely to sweat, and also allows air to flow through the sleeves 206 where heat is likely to be accumulated, thereby allowing the body of the wearer to be cooled efficiently.

When the band cloth 213 is disposed in a ring shape surrounding the entire periphery of the armhole 202A, the number of the third exhaust ports 216 disposed in the upper region 202Aa and the number of the third exhaust ports 216 disposed in the lower region 202Ab may be the same or different from each other. From the viewpoint of ensuring the air volume in the clothes 201, it is preferable that the number of the third air outlets 216 arranged in the upper region 202Aa be larger than the number of the third air outlets 216 arranged in the lower region 202 Ab. In addition, from the viewpoint of cooling the underarm side with emphasis, it is preferable that the number of the third exhaust ports 216 arranged in the lower region 202Ab be larger than the number of the third exhaust ports 216 arranged in the upper region 202 Aa.

The opening areas of the third exhaust port 216 disposed in the upper region 202Aa and the third exhaust port 216 disposed in the lower region 202Ab may be the same or different from each other.

Fig. 23 is a plan view of the band-shaped cloth 213 shown in fig. 22. Since fig. 23 shows a state in which the band-shaped cloths 213 are arranged in a ring shape around the entire circumferences of the armholes 202A, the band-shaped cloths 213 are stereoscopically shown such that portions arranged in the upper regions 202Aa of the armholes 202A face the vertical direction of the paper surface and portions arranged in the lower regions 202Ab of the armholes 202A face upward of the paper surface. The entire length of the belt-shaped cloth 213 having a three-dimensional shape as shown in fig. 23 is quartered by a straight line L1 parallel to the width direction q of the belt-shaped cloth 213, and divided into 4 parts (portions). When the belt-shaped cloth 213 is divided into 4 members, 4 straight lines L1 are arranged so that the longitudinal direction p of 1 member of the 4 members is located at the center of the shoulder portion 213C of the belt-shaped cloth 213. Among the members to be cut into pieces, a portion including the shoulder top 213C of the band-shaped cloth 213 at the center is referred to as a portion a, and a portion including the side 213D opposite to the shoulder top 213C at the center is referred to as a portion B. Fig. 24 and 25 are respectively developed plan views of the cut parts a and B pressed flat from above.

The bending angle θ 1 of the portion a of the band-shaped cloth 213 is preferably set as follows. As shown in fig. 24, the strip-shaped cloth 213 includes a length portion a of a quarter of the entire length of the shoulder top portion 213C of the strip-shaped cloth 213 at the center, and is preferably bent by 80 degrees or more, more preferably by 90 degrees or more, further preferably by 100 degrees or more, further preferably by 140 degrees or less, further preferably by 130 degrees or less, and further preferably by 120 degrees or less in a plan view. By setting the bend angle θ 1 of the band-shaped cloth 213 in this way, the width direction q of the part a of the band-shaped cloth 213 can be easily arranged to stand along the body length direction y of the wearer, and air can be easily discharged toward the cuff 206A side.

The bending angle θ 2 of the portion B of the band-shaped cloth 213 is preferably set as follows. As shown in fig. 25, the length portion B of the belt-shaped cloth 213, which includes a quarter of the total length of the opposite sides of the shoulder top portion 213C of the belt-shaped cloth 213 at the center, is preferably bent by 10 degrees or more, more preferably by 20 degrees or more, further preferably by 30 degrees or more, and further preferably by 80 degrees or less, more preferably by 70 degrees or less, and further preferably by 60 degrees or less in a plan view. This makes it easy to arrange the strip-shaped fabric 213 so that the width direction q of the part B falls along the body width direction x of the wearer, and air can be easily discharged toward the underarm side of the wearer.

In addition, in fig. 24 to 25, the bending angles θ 1, θ 2 of the band-shaped cloth 213 can be represented by angles of straight lines L2 and L3. The straight line L2 is a straight line connecting a center point 213E in the width direction q at one end position in the longitudinal direction p of the portion a or B of the belt-shaped cloth 213 and a center point 213G in the width direction q at the most bent position of the belt-shaped cloth 213, and the straight line L3 is a straight line connecting a center point 213F in the width direction q at the other end position in the longitudinal direction p of the portion a or B of the belt-shaped cloth 213 and the point 213G.

As shown in fig. 22, it is preferable that the unit vector a indicating the exhaust direction from the third exhaust port 216 arranged in the portion a has a larger component outward in the width direction x than the unit vector B indicating the exhaust direction from the third exhaust port 216 arranged in the portion B. By arranging the third air outlet 216 in this way, air can be discharged intensively under the armpits of the wearer who tends to sweat, and air can be made to flow in the sleeve 206 where heat is likely to be collected, whereby the body of the wearer can be cooled efficiently.

As shown in fig. 16 to 17, the garment 201 according to the third aspect is also preferably provided with a plurality of second fixing portions 222. The shape and arrangement of the second fastening portion 222 can be referred to the description of the second fastening portion 22 of the garment 1 according to the first aspect.

Although not shown in fig. 16 to 25, the garment 201 according to the third aspect is preferably provided with a plurality of air outlets in the back material, as in the garment 1 according to the first aspect. As for the shape and arrangement of the air outlet, the description of the air outlet 16 of the clothing 1 according to the first aspect can be referred to.

Claims (19)

1. A garment, the garment having:

the fabric is made of a mixture of a fabric,

a lining material disposed on the skin side of the wearer closer than the facing material,

a first fixing part for fixing the edge part of the fabric and the lining material,

a blower installed on the fabric and sucking external air between the fabric and the lining, an

A plurality of air outlets formed on the lining and used for discharging the air between the surface fabric and the lining to the wearer side,

it is characterized in that a plurality of second fixing parts for fixing the fabric and the lining to each other are arranged at positions separated from the first fixing parts,

the plurality of second fixing portions are arranged at intervals in the body length direction on one side and the other side in the body width direction, respectively.

2. The garment according to claim 1, wherein at least 3 second fastening parts are provided on one side and the other side in the body width direction, respectively,

on one side and the other side in the body width direction, the distance between the adjacent second fixing portions in the body length direction decreases toward the downstream side in the air flow direction.

3. The garment according to claim 1 or 2, wherein the second fixing portion is formed in a band-like or linear shape and is configured to extend in a body length direction.

4. The garment according to claim 1 or 2, wherein a lining material having one main surface and the other main surface opposite to the one main surface is arranged between the front material and the lining material in the second fixing portion,

one end of the one main surface of the lining material is attached to the back surface of the fabric,

the other end of the one main surface of the lining material is attached to an outer surface of the lining material.

5. The garment according to claim 4, wherein the other major surface of the gusset is disposed on a downstream side in a flow direction of air.

6. The garment of claim 1 or 2, wherein the garment is a jacket having a front body and a back body,

the air blower is arranged on the back body piece,

the plurality of second fixing portions are respectively disposed on one side and the other side in the body width direction of the front body, and on one side and the other side in the body width direction of the rear body.

7. The clothing according to claim 1 or 2, wherein the clothing is a jacket having a face fabric and a lining disposed on a skin side of the wearer closer than the face fabric and fitted with a hood covering the head and neck of the wearer,

the second fixing portions are respectively disposed at one side and the other side of the hood in the body width direction,

an exhaust port is provided in the lining of the hood.

8. A garment, characterized in that the garment has:

the fabric is made of a mixture of a fabric,

a lining material disposed on the skin side of the wearer closer than the facing material,

a first fixing part for fixing the edge part of the fabric and the lining material to each other,

a second fixing portion for fixing the fabric and the lining to each other at a position spaced apart from the first fixing portion,

a blower installed on the fabric and sucking the outside air into a first space between the fabric and the lining,

a first air outlet formed on the lining and discharging the air in the first space to the wearer side,

a standing collar portion, and

a second air outlet formed on the standing collar part and used for discharging the air of the second space formed in the standing collar part,

wherein the first space and the second space are in communication with each other.

9. The garment of claim 8, wherein the collar portion has a regulating portion that increases or decreases an amount of air flowing from the first space to the second space.

10. The garment according to claim 8 or 9, wherein when the collar portion is bisected into a front collar portion and a rear collar portion in the front-rear direction of the wearer, the upper end of the rear collar portion in the longitudinal direction is located above the upper end of the front collar portion in the longitudinal direction.

11. The garment according to claim 8 or 9, wherein the second air outlet is formed on a skin side of the collar portion below an upper end of the collar portion in the longitudinal direction.

12. A garment, the garment being a garment including a top, the top having:

the fabric is made of a mixture of a fabric,

a lining material disposed on the skin side of the wearer closer than the facing material,

a first fixing part for fixing the edge part of the face fabric and the lining material to each other, and

a blower mounted on the fabric and sucking the outside air into the space between the fabric and the lining,

it is characterized in that the coat is provided with a strip-shaped cloth, the strip-shaped cloth is a strip-shaped cloth which has a length direction and a width direction, the length direction is arranged along at least one part of the armholes, one side of the width direction is connected with a surface fabric, the other side of the width direction is connected with a lining,

the belt-shaped cloth is provided with a plurality of third air outlets for discharging air between the surface fabric and the lining fabric to the wearer.

13. The garment of claim 12, wherein the length of the portion of the tape-shaped cloth that is attached to the face fabric is longer than the length of the portion of the tape-shaped cloth that is attached to the backing fabric.

14. The garment of claim 12 or 13, wherein when the armholes are bisected into an upper region and a lower region in the longitudinal direction,

the band-shaped cloth is arranged only in the lower side region,

air is discharged from the third air outlet port disposed in the lower side region toward an underarm side of the wearer.

15. The garment of claim 12 or 13, wherein when the armholes are bisected into an upper region and a lower region in the longitudinal direction,

the belt-like cloths are arranged only in the upper region,

air is discharged toward the cuff side from a third air outlet provided in the upper side region.

16. The garment of claim 12 or 13, wherein the band-shaped cloth is configured in a ring shape surrounding the entire circumference of the armholes,

when the armhole is bisected into the upper side region and the lower side region in the body length direction,

discharging air toward the cuff side from a third air outlet provided at the upper side region,

air is discharged from the third air outlet port disposed in the lower side region toward an underarm side of the wearer.

17. The garment of claim 16, wherein a length portion a of the band-shaped cloth in the center, which includes a quarter of the full length of the shoulder-top portion of the band-shaped cloth, is bent more than 80 degrees and less than 140 degrees in a plan-view development.

18. The garment of claim 17, wherein a length portion B of the full length of the band-shaped cloth at the center including the opposite side of the shoulder-top portion of the band-shaped cloth is bent 10 degrees or more and 80 degrees or less in a plan development view.

19. The garment according to claim 18, wherein a unit vector a indicating the direction of air discharge from the third air discharge port arranged in the portion a has a larger component outward in the width direction than a unit vector B indicating the direction of air discharge from the third air discharge port arranged in the portion B.

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